High Flow Volume Nasal Irrigation Device and Method for Alternating Pulsatile and Continuous Fluid Flow

a technology of pulsatile and continuous fluid flow, which is applied in the direction of intravenous devices, enemata/irrigators, other medical devices, etc., can solve the problems of ineffective continuous stream devices, inability to rehabilitate nasal cilia which have lost motility, and less than optimal cleaning ability of devices

Inactive Publication Date: 2011-04-14
SKYLAB DEV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0007]A high flow volume nasal irrigation device for pulsatile and continuous fluid flow is disclosed. The device includes a chamber having a reservoir of liquid and a volume of air. The chamber is configured to elastically deform in response to an applied pressure and thus pressurize the liquid and air therein. The device also includes a fluid conduit configured to convey a pressurized liquid flow from a first end inside the chamber to a second end outside the chamber at a lower pressure. At least one air metering orifice is formed in the fluid conduit. The air metering orifice is configured to introduce a plurality of air pockets from the air volume into the liquid flow and thus generate a pulsatile fluid flow in the conduit.
[0008]A disclosed high flow volume nasal irrigation device allows a user to alternate pulsatile and continuous fluid flow. The device may also include a squeeze bottle with an open end, a reservoir of liquid and a volume of air. The squeeze bottle is configured to elastically deform in response to a manual pressure from a user and thus pressurize the liquid and air. The device also includes a dip tube configured to convey a pressurized liquid flow from a first end inside the squeeze bottle to a second end outside the squeeze bottle. The second end comprises a void in the tube wall. A removable nipple cap is also included, the cap connected to the squeeze bottle open en...

Problems solved by technology

Unfortunately, these devices offer a less than optimal cleaning ability due to the tendency of the continuous stream to form laminar flow paths across the surfaces to be rinsed and due to the surfaces not being deformed and agitated by the smooth flow stream.
These continuous stream devices are also ineffectual in projecting liquid medications or irrigants into sinus cavities because the closed end cavities require time varying pressures to cause fluid entry.
They also fail to reha...

Method used

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  • High Flow Volume Nasal Irrigation Device and Method for Alternating Pulsatile and Continuous Fluid Flow

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Embodiment Construction

[0024]The shear forces, momentum, and solvency of pulsatile nasal irrigation entrains mucus and contaminants and removes them from bodily cavities. Pulsatile nasal irrigation of the nose and sinus cavities with sea water, saline solution, liquid medications, and similar liquids is a way to reduce sinus irritation, congestion, and particularly the allergens that cause allergic rhinitis. Pulsatile nasal irrigation is also beneficial after certain surgical procedures, in treating sinus infections, and other medical conditions.

[0025]The present disclosure is a unique and non-obvious nasal flood irrigation device which provides superior cleaning action at a cost comparable to and competitive with the lowest cost current technology rinsing devices. The disclosed device provides: a) a liquid flow rate higher than any other known nasal irrigator, b) pulsatile irrigation when desired by the user and c) minimal cost. Higher flow rates create higher Reynolds numbers and therefore more turbulen...

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Abstract

A high flow volume nasal irrigation device includes a squeeze bottle, a reservoir of liquid and a volume of air. The bottle is configured to elastically deform in response to a manual pressure from a user and thus pressurize the liquid and air. The device also includes a dip tube configured to convey a pressurized liquid flow from a first end inside the bottle to a second outside end at a lower pressure. A removable nipple cap comprises an orifice and a coaxially aligned extension configured to seal with the dip tube and to form a conduit with the tube. At least one air metering orifice is formed in the fluid conduit accessible to the to volume of air. The air metering orifice is configured to introduce a plurality of air pockets from the air volume into the liquid flow and thus generate a pulsatile fluid flow in the conduit.

Description

CROSS-REFERENCE TO RELATED APPLICATION[0001]This application claims the benefit of the priority date of earlier filed U.S. Provisional Patent Application Ser. No. 61 / 278,455, filed Oct. 8, 2009 incorporated herein by reference in its entirety.BACKGROUND[0002]Flood irrigation differs significantly from the practice of inhaling an atomized mist into the nose. During flood irrigation, the vast majority (>95%) of fluid taken in is expelled immediately (or shortly thereafter) after the contaminants have been rinsed out. Rinsing with flood irrigation is commonly performed by ingesting the liquid solution into one nostril and concurrently expelling the solution from the other nostril. Alternately, flood irrigation is sometimes performed by ingesting the liquid solution into both nostrils simultaneously and having the excess flow to the mouth. Flood irrigation has been demonstrated to be more effective than mist for the distribution of medications and the physical rinsing of the mucus me...

Claims

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Application Information

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IPC IPC(8): A61M3/02
CPCA61M3/0262A61M2210/0618A61M3/0275A61M3/022A61M3/0208
Inventor CARPENTER, MARK
Owner SKYLAB DEV
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